Linshang Chemical
PRODUCTS
Benzene, 4-(Bromomethyl)-1,2-Dichloro-
Linshang Chemical
|
HS Code |
305811 |
| Chemical Formula | C7H5BrCl2 |
| Molecular Weight | 241.92 |
| Appearance | Typically a solid |
| Solubility In Water | Insoluble (non - polar nature) |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, chloroform |
| Vapor Pressure | Low (due to being a solid and high molecular weight) |
As an accredited Benzene, 4-(Bromomethyl)-1,2-Dichloro- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 4-(bromomethyl)-1,2 - dichlorobenzene in a sealed, chemical - resistant bottle. |
| Storage | **Storage of 4-(Bromomethyl)-1,2 - dichlorobenzene**: Store this chemical in a cool, dry, well - ventilated area, away from sources of heat and ignition. Keep it in a tightly sealed container to prevent leakage and exposure to air and moisture. As it is likely hazardous, segregate it from incompatible substances like oxidizing agents, reducing agents, and bases. Follow all safety regulations regarding its storage. |
| Shipping | Ship "4-(Bromomethyl)-1,2 -dichlorobenzene" in well - sealed, corrosion - resistant containers. Follow all regulations for hazardous chemicals during shipping, ensuring proper labeling and handling to prevent spills and exposure. |
Competitive Benzene, 4-(Bromomethyl)-1,2-Dichloro- prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365006308 or mail to info@alchemist-chem.com.
We will respond to you as soon as possible.
Tel: +8615365006308
Email: info@alchemist-chem.com
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As a trusted Benzene, 4-(Bromomethyl)-1,2-Dichloro- manufacturer, we deliver:
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How is the chemical name of this product specifically interpreted?
The chemical name of this product, in order to clarify the details, needs to be discussed according to the specific substance. The chemical name refers to the specific rules and terminology to accurately describe the composition, structure and characteristics of chemical substances. In the era of "Tiangong Kaiwu", although the chemistry discipline was not as complete as it is today, the ancients also had the cognition and title of various substances.
View "Tiangong Kaiwu", which talks about many substances. For example, when it comes to hardware and gold, the texture is soft, the color is yellow and luster, it is a precious metal, which will not corrode for a long time and is often treasured by everyone; silver is also a precious object, with a soft color and good ductility, and many wonderful uses. The book also describes the method of metal smelting in detail. This process involves the transformation of many substances. Although it is not called by modern chemical names, the chemical principles contained in it can be found.
Another example is the firing of ceramics. Clay is quenched by water and turned into exquisite porcelain. Clay is rich in a variety of minerals and is fired at high temperatures, which undergoes complex chemical changes. Although the ancients did not express it accurately in chemical equations, they knew what kind of clay is suitable for pottery and what kind of heat can be used to make pottery. This is the grasp of material characteristics in practice.
Another example is the art of brewing, in which grains are fermented into wine. In this process, microorganisms act to convert sugars into alcohol. Although the ancients did not know the microscopic mysteries of microorganisms, they used experience to summarize the brewing method, which also coincided with the laws of chemical changes.
If you want to interpret the chemical names of products today, you should use modern chemical knowledge as the basis. If it is an organic compound, it should be named according to its carbon chain structure, functional groups, etc., such as ethanol, containing hydroxyl and ethyl groups; if it is an inorganic compound, it should be named according to the name of cation, anion, or the constituent elements of the compound, such as sodium chloride, which is composed of sodium ions and chloride ions. The interpretation of chemical names is the key to scientific understanding of matter, which can help us clarify the essence of matter and make better use of it.
View "Tiangong Kaiwu", which talks about many substances. For example, when it comes to hardware and gold, the texture is soft, the color is yellow and luster, it is a precious metal, which will not corrode for a long time and is often treasured by everyone; silver is also a precious object, with a soft color and good ductility, and many wonderful uses. The book also describes the method of metal smelting in detail. This process involves the transformation of many substances. Although it is not called by modern chemical names, the chemical principles contained in it can be found.
Another example is the firing of ceramics. Clay is quenched by water and turned into exquisite porcelain. Clay is rich in a variety of minerals and is fired at high temperatures, which undergoes complex chemical changes. Although the ancients did not express it accurately in chemical equations, they knew what kind of clay is suitable for pottery and what kind of heat can be used to make pottery. This is the grasp of material characteristics in practice.
Another example is the art of brewing, in which grains are fermented into wine. In this process, microorganisms act to convert sugars into alcohol. Although the ancients did not know the microscopic mysteries of microorganisms, they used experience to summarize the brewing method, which also coincided with the laws of chemical changes.
If you want to interpret the chemical names of products today, you should use modern chemical knowledge as the basis. If it is an organic compound, it should be named according to its carbon chain structure, functional groups, etc., such as ethanol, containing hydroxyl and ethyl groups; if it is an inorganic compound, it should be named according to the name of cation, anion, or the constituent elements of the compound, such as sodium chloride, which is composed of sodium ions and chloride ions. The interpretation of chemical names is the key to scientific understanding of matter, which can help us clarify the essence of matter and make better use of it.
What are the main uses of this product 4- (bromomethyl) -1,2-dichlorobenzene?
4- (hydroxymethyl) -1,2-dihydroxybenzene, also known as catechol-4-methanol, is widely used.
In the field of medicine, it is a key intermediate in the synthesis of many drugs. Taking some drugs with antioxidant properties as an example, the substance can introduce specific active groups in the synthesis process by virtue of its own chemical structure, which helps to improve the ability of the drug to scavenge free radicals, and is effective in delaying the aging of the body and preventing diseases caused by some oxidative stress. Furthermore, when developing drugs for neurological diseases, it can participate in the construction of a specific chemical skeleton to meet the structural requirements of neurotransmitter receptors, or regulate neurotransmitter metabolism, bringing hope for the treatment of Parkinson's disease, Alzheimer's disease and other diseases.
In the field of materials science, it can be used to prepare polymer materials with unique functions. For example, after polymerization with specific monomers, it can endow the material with excellent adsorption properties. This property makes the material very useful in the field of wastewater treatment, which can efficiently absorb heavy metal ions, organic pollutants, etc. in water to achieve the purpose of purifying water. At the same time, in the preparation of conductive polymer materials, it can be used as an electron donor or receiver to adjust the electron cloud distribution of the material, thereby improving the electrical conductivity of the material, and providing new material options for the development of electronic devices, sensors and other fields.
In the chemical industry, it is used as a raw material for organic synthesis and participates in the manufacture of many fine chemicals. For example, in the field of synthetic fragrances, it can be converted into fragrance ingredients with unique aromas through a series of chemical reactions, adding charming flavor to perfumes, cosmetics and other products. In the synthesis of dyes, it can also be used as a key intermediate. Through rational molecular design, dyes with bright colors and good stability can be constructed, which are widely used in textile printing and dyeing industries.
In the field of medicine, it is a key intermediate in the synthesis of many drugs. Taking some drugs with antioxidant properties as an example, the substance can introduce specific active groups in the synthesis process by virtue of its own chemical structure, which helps to improve the ability of the drug to scavenge free radicals, and is effective in delaying the aging of the body and preventing diseases caused by some oxidative stress. Furthermore, when developing drugs for neurological diseases, it can participate in the construction of a specific chemical skeleton to meet the structural requirements of neurotransmitter receptors, or regulate neurotransmitter metabolism, bringing hope for the treatment of Parkinson's disease, Alzheimer's disease and other diseases.
In the field of materials science, it can be used to prepare polymer materials with unique functions. For example, after polymerization with specific monomers, it can endow the material with excellent adsorption properties. This property makes the material very useful in the field of wastewater treatment, which can efficiently absorb heavy metal ions, organic pollutants, etc. in water to achieve the purpose of purifying water. At the same time, in the preparation of conductive polymer materials, it can be used as an electron donor or receiver to adjust the electron cloud distribution of the material, thereby improving the electrical conductivity of the material, and providing new material options for the development of electronic devices, sensors and other fields.
In the chemical industry, it is used as a raw material for organic synthesis and participates in the manufacture of many fine chemicals. For example, in the field of synthetic fragrances, it can be converted into fragrance ingredients with unique aromas through a series of chemical reactions, adding charming flavor to perfumes, cosmetics and other products. In the synthesis of dyes, it can also be used as a key intermediate. Through rational molecular design, dyes with bright colors and good stability can be constructed, which are widely used in textile printing and dyeing industries.
What are the physical properties of this product 4- (bromomethyl) -1,2-dichlorobenzene?
The physical properties of 4- (methoxymethyl) -1,2-difluorobenzene are particularly important for its application in various fields. This substance is a colorless and transparent liquid at room temperature and pressure, and it looks clear like jade dew.
Its boiling point is quite fixed, about [X] ° C. The boiling point is the temperature at which the substance changes from liquid to gaseous state. This boiling point value is crucial when separating and purifying this substance. When it is distilled and other operations, the controlled temperature is slightly higher than this boiling point, so that the substance can be vaporized and separated to achieve the purpose of purification.
The melting point is also one of its significant physical properties, about [Y] ° C. Melting point, that is, the critical temperature at which a substance changes from solid to liquid. Knowing this melting point is of great benefit when storing and transporting this substance. If the ambient temperature is lower than the melting point, the substance will be stored in a solid state in a container for easy storage; if it needs to be taken, it can be turned into a liquid state when heated slightly above the melting point, which is easy to handle.
This substance has a density of about [Z] g/cm ³, which is either light or heavy compared to water. This property is crucial in processes such as liquid-liquid separation. If its density is less than that of water, it will float on the water when stratified, and can be easily separated by means of equipment such as liquid separation funnels.
Furthermore, its solubility cannot be ignored. In organic solvents such as ethanol and ether, it is quite soluble, but in water, the solubility is very small. This solubility characteristic makes it possible to choose a suitable solvent according to the needs of chemical reactions to promote the progress of the reaction or separate the product.
In addition, the volatility of 4- (methoxymethyl) -1,2-difluorobenzene is also characteristic. It has a certain volatility and will slowly evaporate into the air in an open environment. This characteristic requires high ventilation in the place of use to prevent it from accumulating in a limited space and causing safety hazards.
Its boiling point is quite fixed, about [X] ° C. The boiling point is the temperature at which the substance changes from liquid to gaseous state. This boiling point value is crucial when separating and purifying this substance. When it is distilled and other operations, the controlled temperature is slightly higher than this boiling point, so that the substance can be vaporized and separated to achieve the purpose of purification.
The melting point is also one of its significant physical properties, about [Y] ° C. Melting point, that is, the critical temperature at which a substance changes from solid to liquid. Knowing this melting point is of great benefit when storing and transporting this substance. If the ambient temperature is lower than the melting point, the substance will be stored in a solid state in a container for easy storage; if it needs to be taken, it can be turned into a liquid state when heated slightly above the melting point, which is easy to handle.
This substance has a density of about [Z] g/cm ³, which is either light or heavy compared to water. This property is crucial in processes such as liquid-liquid separation. If its density is less than that of water, it will float on the water when stratified, and can be easily separated by means of equipment such as liquid separation funnels.
Furthermore, its solubility cannot be ignored. In organic solvents such as ethanol and ether, it is quite soluble, but in water, the solubility is very small. This solubility characteristic makes it possible to choose a suitable solvent according to the needs of chemical reactions to promote the progress of the reaction or separate the product.
In addition, the volatility of 4- (methoxymethyl) -1,2-difluorobenzene is also characteristic. It has a certain volatility and will slowly evaporate into the air in an open environment. This characteristic requires high ventilation in the place of use to prevent it from accumulating in a limited space and causing safety hazards.
What are the precautions for the storage and transportation of this product 4- (bromomethyl) -1,2-dichlorobenzene?
4 - (Cyanomethyl) - 1,2 - dibromobenzene This substance, when storing and transporting, pay attention to many matters.
The first thing to pay attention to is its chemical properties. This is an organic compound, containing cyanide and bromine atoms, which are active in nature. Cyanide groups are toxic to a certain extent, and bromine atoms enhance their chemical activity, making them prone to chemical reactions when encountering specific substances. When storing, choose a dry, cool and well-ventilated place, away from direct sunlight and heat sources. Due to light and high temperature, it may decompose, deteriorate, and even cause dangerous reactions.
Secondary discussion on packaging. The packaging must be tight to prevent leakage. It is often stored in a sealed container to ensure that there is no leakage. When transporting, choose suitable packaging materials to withstand vibration, collision and temperature changes, and prevent material leakage caused by package damage.
In addition, its toxicity also needs to be paid attention to. Cyanide toxicity can endanger human health, contact or inhalation or poisoning. During storage and transportation, strict safety procedures are followed, and operators need to take protective measures, such as wearing protective clothing, gloves and gas masks, to prevent direct contact and inhalation.
In addition, transportation needs to comply with regulations. Because it may be a dangerous chemical, transportation qualifications, route planning and emergency plans all need to be compliant. Before transportation, know the destination and transit laws in detail to ensure legal transportation.
In addition, the temperature and humidity of the storage and transportation environment also need to be controlled. If the temperature and humidity are too high or too low, it can affect its stability. It is suitable for storage and transportation within a suitable temperature and humidity range, and regular monitoring and regulation.
Finally, the compatibility with other substances should not be ignored. Avoid mixing with oxidants, acids, alkalis, etc., because it can react violently with them, causing fires, explosions and other accidents. Before storage and transportation, clarify its chemical properties and compatibility, and plan storage and transportation plans reasonably.
The first thing to pay attention to is its chemical properties. This is an organic compound, containing cyanide and bromine atoms, which are active in nature. Cyanide groups are toxic to a certain extent, and bromine atoms enhance their chemical activity, making them prone to chemical reactions when encountering specific substances. When storing, choose a dry, cool and well-ventilated place, away from direct sunlight and heat sources. Due to light and high temperature, it may decompose, deteriorate, and even cause dangerous reactions.
Secondary discussion on packaging. The packaging must be tight to prevent leakage. It is often stored in a sealed container to ensure that there is no leakage. When transporting, choose suitable packaging materials to withstand vibration, collision and temperature changes, and prevent material leakage caused by package damage.
In addition, its toxicity also needs to be paid attention to. Cyanide toxicity can endanger human health, contact or inhalation or poisoning. During storage and transportation, strict safety procedures are followed, and operators need to take protective measures, such as wearing protective clothing, gloves and gas masks, to prevent direct contact and inhalation.
In addition, transportation needs to comply with regulations. Because it may be a dangerous chemical, transportation qualifications, route planning and emergency plans all need to be compliant. Before transportation, know the destination and transit laws in detail to ensure legal transportation.
In addition, the temperature and humidity of the storage and transportation environment also need to be controlled. If the temperature and humidity are too high or too low, it can affect its stability. It is suitable for storage and transportation within a suitable temperature and humidity range, and regular monitoring and regulation.
Finally, the compatibility with other substances should not be ignored. Avoid mixing with oxidants, acids, alkalis, etc., because it can react violently with them, causing fires, explosions and other accidents. Before storage and transportation, clarify its chemical properties and compatibility, and plan storage and transportation plans reasonably.
What is the production process of this product 4- (bromomethyl) -1,2-dichlorobenzene?
"Tiangong Kaiwu" says: "Anyone who makes this thing has an exquisite method." In this article, the manufacturing process of 4- (hydroxymethyl) -1,2-dibromobenzene, and listen to me in detail.
To make 4- (hydroxymethyl) -1,2-dibromobenzene, the first thing to do is to choose the raw materials carefully. The basic raw materials are mostly aromatic hydrocarbons with specific structures, with reagents containing hydroxymethyl and bromine sources, which is the key. The purity and quality of the raw materials are all related to the quality of the product.
At the beginning of preparation, the infrastructure is often built by delicate chemical reactions. In a suitable reaction vessel, precise temperature, pressure and reaction time are controlled. First, aromatics are used as the base, and hydroxymethyl is cleverly connected with the help of catalysts. This step requires precise control of the reaction conditions. If there is a slight difference, the substitution position and quantity of hydroxymethyl may be deviated.
After the hydroxymethyl is successfully introduced, the step of bromination is carried out. The method of bromination, or using liquid bromine as the source, under the catalysis of light or a specific catalyst, makes bromine atoms replace hydrogen atoms at specific positions in the benzene ring one by one, and finally obtains the structure of 1,2-dibromine. This process requires strict requirements on the reaction environment, such as light intensity and catalyst activity, which need to be carefully regulated.
After the reaction is completed, the product still contains impurities, and needs to be purified by multiple methods. Or use the technique of extraction to take advantage of the different solubility of different substances in a specific solvent to initially separate impurities; then use distillation, recrystallization, etc., to further purify the product to the required purity.
The entire manufacturing process is interconnected, and it requires careful control and precise control by craftsmen. A little carelessness, it will fall short. This is the outline of the manufacturing process of 4- (hydroxymethyl) -1,2-dibromobenzene.
To make 4- (hydroxymethyl) -1,2-dibromobenzene, the first thing to do is to choose the raw materials carefully. The basic raw materials are mostly aromatic hydrocarbons with specific structures, with reagents containing hydroxymethyl and bromine sources, which is the key. The purity and quality of the raw materials are all related to the quality of the product.
At the beginning of preparation, the infrastructure is often built by delicate chemical reactions. In a suitable reaction vessel, precise temperature, pressure and reaction time are controlled. First, aromatics are used as the base, and hydroxymethyl is cleverly connected with the help of catalysts. This step requires precise control of the reaction conditions. If there is a slight difference, the substitution position and quantity of hydroxymethyl may be deviated.
After the hydroxymethyl is successfully introduced, the step of bromination is carried out. The method of bromination, or using liquid bromine as the source, under the catalysis of light or a specific catalyst, makes bromine atoms replace hydrogen atoms at specific positions in the benzene ring one by one, and finally obtains the structure of 1,2-dibromine. This process requires strict requirements on the reaction environment, such as light intensity and catalyst activity, which need to be carefully regulated.
After the reaction is completed, the product still contains impurities, and needs to be purified by multiple methods. Or use the technique of extraction to take advantage of the different solubility of different substances in a specific solvent to initially separate impurities; then use distillation, recrystallization, etc., to further purify the product to the required purity.
The entire manufacturing process is interconnected, and it requires careful control and precise control by craftsmen. A little carelessness, it will fall short. This is the outline of the manufacturing process of 4- (hydroxymethyl) -1,2-dibromobenzene.
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